CN208075213U - Air-source consumption reduction thermostatic equipment - Google Patents

Abstract

The utility model belongs to building heating and ventilating equipment field more particularly to a kind of air-source consumption reduction thermostatic equipment, including external heat exchanger（1）And interior heat exchanger（2）；Reversal valve（6）Central inlet connects compressor（8）Delivery outlet；Reversal valve（6）One side ports connect external heat exchanger（1）, another side ports connect inside air-cooled exchanger（3）；Inside air-cooled exchanger（3）It connects interior ground steam heating pipe and connects valve（10）；Interior floor heating liquid tube connecting valve（11）Connect inside liquid cooling heat exchanger（4）；Inside liquid cooling heat exchanger（4）Connect throttle part（9）；Indoor heat exchange capillary（12）Port respectively with interior floor heating liquid tube connecting valve（11）And interior ground steam heating pipe connects valve（10）Connect；In the indoor heat exchange capillary（12）External stability be equipped with Metal pinch plate（13）.Tthe utility model system is stable, and energy consumption is low, dissipates temp effect ideal, and Energy Efficiency Ratio is high, need not destroy bottom surface in work progress, service life is long.

Description

Air-source consumption reduction thermostatic equipment

Technical field

The utility model belongs to building heating and ventilating equipment field more particularly to a kind of air-source consumption reduction thermostatic equipment.

Background technology

Air-conditioning, that is, air regulator（Air Conditioner）Refer to manually means, it is empty to environment in building/structures The process that the parameters such as temperature, humidity, cleanliness factor, the speed of gas are adjusted and control.Low-temperature receiver/heat resource equipment is generally comprised, it is cold Thermal medium distributing system, the several majors such as end equipment and other ancillary equipments.Include mainly water pump, wind turbine and pipe-line system. End equipment then be responsible for using transmission & distribution come cold and hot amount, specifically processing air, temperature, so that the air parameter of target environment is reached and want It asks.

Air source heat pump industry common problem at present, 1, outdoor unit heat exchanger is unreasonable, efficiency is relatively low and Larger knot defrost energy consumption；2, system run all right is poor, and energy consumption is high, and scattered temp effect is undesirable, and Energy Efficiency Ratio is low；3, work progress In need to destroy bottom surface, easily there is corrosion phenomenon in metal capillary and cement mortar contact certain time.

Utility model content

The utility model overcomes the shortcomings of the prior art place and provides a kind of system run all right, and energy consumption is low, dissipates Temp effect is ideal, and Energy Efficiency Ratio is high, and bottom surface, air-source consumption reduction thermostatic equipment with long service life need not be destroyed in work progress.

In order to solve the above technical problems, the utility model is realized in this way：

Air-source consumption reduction thermostatic equipment, including external heat exchanger and interior heat exchanger；The interior heat exchanger is placed in external heat exchanger Portion region；It is equipped with reversal valve, compressor and throttle part in the interior heat exchanger lower part；The external heat exchanger is combined using petaloid Structure；The interior heat exchanger includes inside air-cooled exchanger, inside liquid cooling heat exchanger and refrigeration electromagnetic valve for adjusting；The reversal valve Central inlet connects compressor delivery outlet；One side ports of the reversal valve connect external heat exchanger, and another side ports connect inside air cooling and change Hot device；The inside air-cooled exchanger connects interior ground steam heating pipe and connects valve；Interior floor heating liquid tube connecting valve connects inside liquid cooling heat exchanger；In described Side liquid cooling heat exchanger connects throttle part；The throttle part is sequentially connected in series interior floor heating liquid tube connecting valve, indoor heat exchange capillary and interior Ground steam heating pipe connects valve；The port of the interior heat exchange capillary connects valve phase with interior floor heating liquid tube connecting valve and interior ground steam heating pipe respectively It connects；It is equipped with Metal pinch plate in the external stability of the indoor heat exchange capillary.

As a preferred embodiment, the utility model is equipped with heat radiation holes in the Metal pinch plate.

Further, 20~50mm of indoor heat exchange capillary tube spacing described in the utility model；Indoor heat exchange capillary it is straight Diameter is 3~6mm.

Further, the utility model connects in the interior ground steam heating pipe and is equipped with unit guarantor between valve and indoor heat exchange capillary Protection element.

The perception comfort of people under construction is collectively formed by the cold and hot radiation in ground and wall and air themperature, popular It says when ground and wall winter reach 23~27 DEG C, when 24~26 DEG C of summer, since air specific heat very little is transmitted naturally as ground Wall temperature.Building building cement is heated or cooled to above-mentioned temperature, the interior of inhabitation will reach best comfort temperature.This reality Stable with novel system, energy consumption is low, dissipates temp effect ideal, and Energy Efficiency Ratio is high, needs to destroy bottom surface in work progress, uses the longevity Life length.

Traditional heating pipe network needs huge road ditching engineering, not only expensive according to the set price, to urban environment, traffic, life All bring a negative impact.It is heated based on building body or metal microporous tube is placed in room by the theory that cools down, uniform science by suitable amounts In inner wall, microporous pipe heat transfer area increases by 9~11 times, constitutes conduction, radiation and three kinds of symbiosis conducting carriers of convection current.With human body Physiology is this metal microporous tube building system, and instead of traditional air conditioner indoor unit, radiator, pipeline valve etc. save goods, materials and equipments With the interior space.Energy efficiency improves 2.6~3.7 times.Heating and refrigeration expense decline 53~74%, are effectively improved climatic environment. Under same heat radiation degree, increase special-shaped wind passage mouth, under equal conditions, air inflow can increase to 0.21kg/s, matter It measures flow and increases by 128%.

Description of the drawings

The utility model is described in further detail with reference to the accompanying drawings and detailed description.The protection model of the utility model Enclose the statement for being not only limited to following content.

Fig. 1 is the utility model overall structure diagram.

In figure：1, external heat exchanger；2, interior heat exchanger；3；Inside air-cooled exchanger；4, inside liquid cooling heat exchanger；5, refrigeration is adjusted Economize on electricity magnet valve；6, reversal valve；8, compressor；9, throttle part；10, interior ground steam heating pipe connects valve；11, interior floor heating liquid tube connecting valve；12, Indoor heat exchange capillary；13, Metal pinch plate；14, heat radiation holes；15, generator protection element；16, special-shaped wind passage mouth.

Specific implementation mode

The thermostatic equipment as shown, air-source lowers consumption, including external heat exchanger 1 and interior heat exchanger 2；The interior heat exchanger 2 is set In 1 central region of external heat exchanger；It is equipped with reversal valve 6, compressor 8 and throttle part 9 in 2 lower part of interior heat exchanger；It is described outer Heat exchanger 1 uses petaloid composite structure；The interior heat exchanger 2 includes inside air-cooled exchanger 3, inside liquid cooling heat exchanger 4 and system Cold electromagnetic valve for adjusting 5；6 central inlet of the reversal valve connects 8 delivery outlet of compressor；6 one side ports of the reversal valve connect outer heat exchange Device 1, another side ports connect inside air-cooled exchanger 3；The inside air-cooled exchanger 3 connects interior ground steam heating pipe and connects valve 10；Interiorly Warm fluid tube connecting valve 11 connects inside liquid cooling heat exchanger 4；The inside liquid cooling heat exchanger 4 connects throttle part 9；The throttle part 9 according to Floor heating liquid tube connecting valve 11, indoor heat exchange capillary 12 and interior ground steam heating pipe connect valve 10 in secondary concatenation；The interior heat exchange capillary 12 port connects valve 10 with interior floor heating liquid tube connecting valve 11 and interior ground steam heating pipe respectively and connects；In the indoor heat exchange capillary 12 External stability is equipped with Metal pinch plate 13.

For ease of heat radiation, the utility model is equipped with heat radiation holes 14 in the Metal pinch plate 13.It is described in the utility model 12 spacing 40mm of indoor heat exchange capillary；A diameter of 4mm of indoor heat exchange capillary 12.To protect unit normal operation, this reality With novel connect in the interior ground steam heating pipe generator protection element 15 is equipped between valve 10 and indoor heat exchange capillary 12.

The utility model is equipped with special-shaped wind passage mouth 16 at the heat radiation holes；Abnormal shape the wind passage mouth 16 surface X, Y, Z The cross-sectional close curve in three directions builds mathematical model using Gauss curve fitting, and constructs 3D models by SOLIDWORKS, After being calculated by CFD, related test parameters are simulated by FLUENT；Closed curve Gauss curve fitting function：

8 delivery outlet of heat exchanger shell inside 6 central inlet connect compressor of reversal valve, reversal valve 6 one in the utility model Side ports connect external heat exchanger 1, another side ports connection inside air-cooled exchanger 3, and inside air-cooled exchanger 3 connects interior ground heating Tube connecting valve 10, the interior connection of floor heating liquid tube connecting valve 11 inside liquid cooling heat exchanger 4, inside liquid cooling heat exchanger 4 connects throttle part 9, section Stream unit 9 is sequentially connected in series interior floor heating liquid tube connecting valve 11, indoor heat exchange capillary 12 and interior ground steam heating pipe and connects valve 10.It is supplied in winter room When warm, compressor 8 exports cold media gas and enters inside air-cooled exchanger 3, inside air-cooled exchanger by 6 right side port of reversal valve 3 connect valve 10 through interior ground steam heating pipe gets in heat exchange capillary 12, and the refrigerant of reflux is further cold in inside liquid cooling heat exchanger 4 It coagulating for subcooled liquid, the air after being heated by inside liquid cooling heat exchanger 4 enters back into inside air-cooled exchanger 3 and carries out 2 heating, Air enters inside 3 heater riser of air-cooled exchanger to 40 DEG C or more.Cooling in summer principle is same as above.

In the description of the present invention, it should be understood that term " bottom ", " one end ", " top ", " middle part ", " another The orientation or positional relationship of the instructions such as one end ", "upper", " side ", " top ", "inner", " front ", " center ", " both ends " is base In orientation or positional relationship shown in the drawings, be merely for convenience of describing the present invention and simplifying the description, rather than indicate or It implies that signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore should not be understood as Limitations of the present invention.

In the present invention unless specifically defined or limited otherwise, term " installation ", " setting ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；Can be Mechanical connection can also be electrical connection；It can be directly connected, can also can be indirectly connected through an intermediary two The interaction relationship of connection or two elements inside element, unless otherwise restricted clearly, for the common skill of this field For art personnel, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (5)

1. The thermostatic equipment 1. air-source lowers consumption, which is characterized in that including external heat exchanger（1）And interior heat exchanger（2）；The interior heat exchanger （2）It is placed in external heat exchanger（1）Central region；In the interior heat exchanger（2）Lower part is equipped with reversal valve（6）, compressor（8）And throttling Component（9）；The external heat exchanger（1）Using petaloid composite structure；The interior heat exchanger（2）Including inside air-cooled exchanger（3）, Inside liquid cooling heat exchanger（4）And refrigeration electromagnetic valve for adjusting（5）；The reversal valve（6）Central inlet connects compressor（8）Delivery outlet； The reversal valve（6）One side ports connect external heat exchanger（1）, another side ports connect inside air-cooled exchanger（3）；The inside gas Cold heat exchanger（3）It connects interior ground steam heating pipe and connects valve（10）；Interior floor heating liquid tube connecting valve（11）Connect inside liquid cooling heat exchanger（4）；In described Side liquid cooling heat exchanger（4）Connect throttle part（9）；The throttle part（9）It is sequentially connected in series interior floor heating liquid tube connecting valve（11）, interior changes Thermo-capillary（12）And interior ground steam heating pipe connects valve（10）；The interior heat exchange capillary（12）Port respectively with interior floor heating liquid pipe Connect valve（11）And interior ground steam heating pipe connects valve（10）Connect；In the indoor heat exchange capillary（12）External stability be equipped with buckle Plate（13）.
2. The thermostatic equipment 2. air-source according to claim 1 lowers consumption, it is characterised in that：In the Metal pinch plate（13）It is equipped with Heat radiation holes（14）.
3. The thermostatic equipment 3. air-source according to claim 2 lowers consumption, it is characterised in that：The interior heat exchange capillary（12） 20~50mm of spacing；Indoor heat exchange capillary（12）A diameter of 3~6mm.
4. The thermostatic equipment 4. air-source according to claim 3 lowers consumption, it is characterised in that：Valve is connect in the interior ground steam heating pipe （10）With indoor heat exchange capillary（12）Between be equipped with generator protection element（15）.
5. The thermostatic equipment 5. air-source according to claim 4 lowers consumption, it is characterised in that：In the heat radiation holes（14）Place is set There is special-shaped wind passage mouth（16）；The abnormal shape wind passage mouth（16）The cross-sectional close curve of surface X, Y, tri- directions Z are quasi- using Gauss Structure mathematical model is closed, and 3D models are constructed by SOLIDWORKS, after being calculated by CFD, is simulated by FLUENT Related test parameters；Closed curve Gauss curve fitting function：

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